package blockchain import ( "bytes" "fmt" "runtime/debug" "strings" "testing" "time" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" cfg "github.com/tendermint/tendermint/config" cmn "github.com/tendermint/tendermint/libs/common" "github.com/tendermint/tendermint/libs/db" dbm "github.com/tendermint/tendermint/libs/db" "github.com/tendermint/tendermint/libs/log" sm "github.com/tendermint/tendermint/state" "github.com/tendermint/tendermint/types" tmtime "github.com/tendermint/tendermint/types/time" ) // make a Commit with a single vote containing just the height and a timestamp func makeTestCommit(height int64, timestamp time.Time) *types.Commit { return &types.Commit{ Precommits: []*types.CommitSig{ {Height: height, Timestamp: timestamp}, }, } } func makeStateAndBlockStore(logger log.Logger) (sm.State, *BlockStore) { config := cfg.ResetTestRoot("blockchain_reactor_test") // blockDB := dbm.NewDebugDB("blockDB", dbm.NewMemDB()) // stateDB := dbm.NewDebugDB("stateDB", dbm.NewMemDB()) blockDB := dbm.NewMemDB() stateDB := dbm.NewMemDB() state, err := sm.LoadStateFromDBOrGenesisFile(stateDB, config.GenesisFile()) if err != nil { panic(cmn.ErrorWrap(err, "error constructing state from genesis file")) } return state, NewBlockStore(blockDB) } func TestLoadBlockStoreStateJSON(t *testing.T) { db := db.NewMemDB() bsj := &BlockStoreStateJSON{Height: 1000} bsj.Save(db) retrBSJ := LoadBlockStoreStateJSON(db) assert.Equal(t, *bsj, retrBSJ, "expected the retrieved DBs to match") } func TestNewBlockStore(t *testing.T) { db := db.NewMemDB() db.Set(blockStoreKey, []byte(`{"height": "10000"}`)) bs := NewBlockStore(db) require.Equal(t, int64(10000), bs.Height(), "failed to properly parse blockstore") panicCausers := []struct { data []byte wantErr string }{ {[]byte("artful-doger"), "not unmarshal bytes"}, {[]byte(" "), "unmarshal bytes"}, } for i, tt := range panicCausers { // Expecting a panic here on trying to parse an invalid blockStore _, _, panicErr := doFn(func() (interface{}, error) { db.Set(blockStoreKey, tt.data) _ = NewBlockStore(db) return nil, nil }) require.NotNil(t, panicErr, "#%d panicCauser: %q expected a panic", i, tt.data) assert.Contains(t, fmt.Sprintf("%#v", panicErr), tt.wantErr, "#%d data: %q", i, tt.data) } db.Set(blockStoreKey, nil) bs = NewBlockStore(db) assert.Equal(t, bs.Height(), int64(0), "expecting nil bytes to be unmarshaled alright") } func freshBlockStore() (*BlockStore, db.DB) { db := db.NewMemDB() return NewBlockStore(db), db } var ( state, _ = makeStateAndBlockStore(log.NewTMLogger(new(bytes.Buffer))) block = makeBlock(1, state, new(types.Commit)) partSet = block.MakePartSet(2) part1 = partSet.GetPart(0) part2 = partSet.GetPart(1) seenCommit1 = makeTestCommit(10, tmtime.Now()) ) // TODO: This test should be simplified ... func TestBlockStoreSaveLoadBlock(t *testing.T) { state, bs := makeStateAndBlockStore(log.NewTMLogger(new(bytes.Buffer))) require.Equal(t, bs.Height(), int64(0), "initially the height should be zero") // check there are no blocks at various heights noBlockHeights := []int64{0, -1, 100, 1000, 2} for i, height := range noBlockHeights { if g := bs.LoadBlock(height); g != nil { t.Errorf("#%d: height(%d) got a block; want nil", i, height) } } // save a block block := makeBlock(bs.Height()+1, state, new(types.Commit)) validPartSet := block.MakePartSet(2) seenCommit := makeTestCommit(10, tmtime.Now()) bs.SaveBlock(block, partSet, seenCommit) require.Equal(t, bs.Height(), block.Header.Height, "expecting the new height to be changed") incompletePartSet := types.NewPartSetFromHeader(types.PartSetHeader{Total: 2}) uncontiguousPartSet := types.NewPartSetFromHeader(types.PartSetHeader{Total: 0}) uncontiguousPartSet.AddPart(part2) header1 := types.Header{ Height: 1, NumTxs: 100, ChainID: "block_test", Time: tmtime.Now(), } header2 := header1 header2.Height = 4 // End of setup, test data commitAtH10 := makeTestCommit(10, tmtime.Now()) tuples := []struct { block *types.Block parts *types.PartSet seenCommit *types.Commit wantErr bool wantPanic string corruptBlockInDB bool corruptCommitInDB bool corruptSeenCommitInDB bool eraseCommitInDB bool eraseSeenCommitInDB bool }{ { block: newBlock(header1, commitAtH10), parts: validPartSet, seenCommit: seenCommit1, }, { block: nil, wantPanic: "only save a non-nil block", }, { block: newBlock(header2, commitAtH10), parts: uncontiguousPartSet, wantPanic: "only save contiguous blocks", // and incomplete and uncontiguous parts }, { block: newBlock(header1, commitAtH10), parts: incompletePartSet, wantPanic: "only save complete block", // incomplete parts }, { block: newBlock(header1, commitAtH10), parts: validPartSet, seenCommit: seenCommit1, corruptCommitInDB: true, // Corrupt the DB's commit entry wantPanic: "unmarshal to types.Commit failed", }, { block: newBlock(header1, commitAtH10), parts: validPartSet, seenCommit: seenCommit1, wantPanic: "unmarshal to types.BlockMeta failed", corruptBlockInDB: true, // Corrupt the DB's block entry }, { block: newBlock(header1, commitAtH10), parts: validPartSet, seenCommit: seenCommit1, // Expecting no error and we want a nil back eraseSeenCommitInDB: true, }, { block: newBlock(header1, commitAtH10), parts: validPartSet, seenCommit: seenCommit1, corruptSeenCommitInDB: true, wantPanic: "unmarshal to types.Commit failed", }, { block: newBlock(header1, commitAtH10), parts: validPartSet, seenCommit: seenCommit1, // Expecting no error and we want a nil back eraseCommitInDB: true, }, } type quad struct { block *types.Block commit *types.Commit meta *types.BlockMeta seenCommit *types.Commit } for i, tuple := range tuples { bs, db := freshBlockStore() // SaveBlock res, err, panicErr := doFn(func() (interface{}, error) { bs.SaveBlock(tuple.block, tuple.parts, tuple.seenCommit) if tuple.block == nil { return nil, nil } if tuple.corruptBlockInDB { db.Set(calcBlockMetaKey(tuple.block.Height), []byte("block-bogus")) } bBlock := bs.LoadBlock(tuple.block.Height) bBlockMeta := bs.LoadBlockMeta(tuple.block.Height) if tuple.eraseSeenCommitInDB { db.Delete(calcSeenCommitKey(tuple.block.Height)) } if tuple.corruptSeenCommitInDB { db.Set(calcSeenCommitKey(tuple.block.Height), []byte("bogus-seen-commit")) } bSeenCommit := bs.LoadSeenCommit(tuple.block.Height) commitHeight := tuple.block.Height - 1 if tuple.eraseCommitInDB { db.Delete(calcBlockCommitKey(commitHeight)) } if tuple.corruptCommitInDB { db.Set(calcBlockCommitKey(commitHeight), []byte("foo-bogus")) } bCommit := bs.LoadBlockCommit(commitHeight) return &quad{block: bBlock, seenCommit: bSeenCommit, commit: bCommit, meta: bBlockMeta}, nil }) if subStr := tuple.wantPanic; subStr != "" { if panicErr == nil { t.Errorf("#%d: want a non-nil panic", i) } else if got := fmt.Sprintf("%#v", panicErr); !strings.Contains(got, subStr) { t.Errorf("#%d:\n\tgotErr: %q\nwant substring: %q", i, got, subStr) } continue } if tuple.wantErr { if err == nil { t.Errorf("#%d: got nil error", i) } continue } assert.Nil(t, panicErr, "#%d: unexpected panic", i) assert.Nil(t, err, "#%d: expecting a non-nil error", i) qua, ok := res.(*quad) if !ok || qua == nil { t.Errorf("#%d: got nil quad back; gotType=%T", i, res) continue } if tuple.eraseSeenCommitInDB { assert.Nil(t, qua.seenCommit, "erased the seenCommit in the DB hence we should get back a nil seenCommit") } if tuple.eraseCommitInDB { assert.Nil(t, qua.commit, "erased the commit in the DB hence we should get back a nil commit") } } } func TestLoadBlockPart(t *testing.T) { bs, db := freshBlockStore() height, index := int64(10), 1 loadPart := func() (interface{}, error) { part := bs.LoadBlockPart(height, index) return part, nil } // Initially no contents. // 1. Requesting for a non-existent block shouldn't fail res, _, panicErr := doFn(loadPart) require.Nil(t, panicErr, "a non-existent block part shouldn't cause a panic") require.Nil(t, res, "a non-existent block part should return nil") // 2. Next save a corrupted block then try to load it db.Set(calcBlockPartKey(height, index), []byte("Tendermint")) res, _, panicErr = doFn(loadPart) require.NotNil(t, panicErr, "expecting a non-nil panic") require.Contains(t, panicErr.Error(), "unmarshal to types.Part failed") // 3. A good block serialized and saved to the DB should be retrievable db.Set(calcBlockPartKey(height, index), cdc.MustMarshalBinaryBare(part1)) gotPart, _, panicErr := doFn(loadPart) require.Nil(t, panicErr, "an existent and proper block should not panic") require.Nil(t, res, "a properly saved block should return a proper block") require.Equal(t, gotPart.(*types.Part), part1, "expecting successful retrieval of previously saved block") } func TestLoadBlockMeta(t *testing.T) { bs, db := freshBlockStore() height := int64(10) loadMeta := func() (interface{}, error) { meta := bs.LoadBlockMeta(height) return meta, nil } // Initially no contents. // 1. Requesting for a non-existent blockMeta shouldn't fail res, _, panicErr := doFn(loadMeta) require.Nil(t, panicErr, "a non-existent blockMeta shouldn't cause a panic") require.Nil(t, res, "a non-existent blockMeta should return nil") // 2. Next save a corrupted blockMeta then try to load it db.Set(calcBlockMetaKey(height), []byte("Tendermint-Meta")) res, _, panicErr = doFn(loadMeta) require.NotNil(t, panicErr, "expecting a non-nil panic") require.Contains(t, panicErr.Error(), "unmarshal to types.BlockMeta") // 3. A good blockMeta serialized and saved to the DB should be retrievable meta := &types.BlockMeta{} db.Set(calcBlockMetaKey(height), cdc.MustMarshalBinaryBare(meta)) gotMeta, _, panicErr := doFn(loadMeta) require.Nil(t, panicErr, "an existent and proper block should not panic") require.Nil(t, res, "a properly saved blockMeta should return a proper blocMeta ") require.Equal(t, cdc.MustMarshalBinaryBare(meta), cdc.MustMarshalBinaryBare(gotMeta), "expecting successful retrieval of previously saved blockMeta") } func TestBlockFetchAtHeight(t *testing.T) { state, bs := makeStateAndBlockStore(log.NewTMLogger(new(bytes.Buffer))) require.Equal(t, bs.Height(), int64(0), "initially the height should be zero") block := makeBlock(bs.Height()+1, state, new(types.Commit)) partSet := block.MakePartSet(2) seenCommit := makeTestCommit(10, tmtime.Now()) bs.SaveBlock(block, partSet, seenCommit) require.Equal(t, bs.Height(), block.Header.Height, "expecting the new height to be changed") blockAtHeight := bs.LoadBlock(bs.Height()) bz1 := cdc.MustMarshalBinaryBare(block) bz2 := cdc.MustMarshalBinaryBare(blockAtHeight) require.Equal(t, bz1, bz2) require.Equal(t, block.Hash(), blockAtHeight.Hash(), "expecting a successful load of the last saved block") blockAtHeightPlus1 := bs.LoadBlock(bs.Height() + 1) require.Nil(t, blockAtHeightPlus1, "expecting an unsuccessful load of Height()+1") blockAtHeightPlus2 := bs.LoadBlock(bs.Height() + 2) require.Nil(t, blockAtHeightPlus2, "expecting an unsuccessful load of Height()+2") } func doFn(fn func() (interface{}, error)) (res interface{}, err error, panicErr error) { defer func() { if r := recover(); r != nil { switch e := r.(type) { case error: panicErr = e case string: panicErr = fmt.Errorf("%s", e) default: if st, ok := r.(fmt.Stringer); ok { panicErr = fmt.Errorf("%s", st) } else { panicErr = fmt.Errorf("%s", debug.Stack()) } } } }() res, err = fn() return res, err, panicErr } func newBlock(hdr types.Header, lastCommit *types.Commit) *types.Block { return &types.Block{ Header: hdr, LastCommit: lastCommit, } }